CN210172973U - Flashboard hole processing equipment - Google Patents

Abstract

The utility model belongs to the flashboard inner hole processing field, in particular to flashboard inner hole processing equipment, which comprises a machine tool, wherein one side of the machine tool is provided with a group of motors which are distributed in a mirror symmetry way and are marked as an X-axis spindle motor and a Y-axis spindle motor, and drill bits of the motors are arranged oppositely; the other side of lathe is equipped with another group and is the motor of mirror symmetry distribution, marks as A axle spindle motor and B axle spindle motor, X axle spindle motor with A axle spindle motor parallel arrangement, this group the tool bit of motor sets up relatively, the tool bit is flashboard hole processing tool bit. The utility model provides a alright accomplish processing hole, hole terminal surface and chamfer on an equipment, improve the flashboard hole processing equipment of the efficiency of flashboard processing.

Description

Flashboard hole processing equipment

Technical Field

The utility model belongs to flashboard hole processing field especially relates to flashboard hole processing equipment.

Background

The prior art and the defects are as follows:

at present, the processing of flashboard hole needs to process hole, hole terminal surface and chamfer, takes the mode of substep processing among the prior art, can utilize lathe, fixes the flashboard on lathe spindle, utilizes the cutter at first to process the hole, and then changes the cutter, recycles another cutter processing hole terminal surface, and finally, it carries out the chamfer to change the cutter, needs to change twice cutter, is equivalent to three processes, has reduced the efficiency of flashboard processing, wastes time and energy.

The difficulty and significance for solving the technical problems are as follows:

therefore, based on these problems, the flashboard inner hole processing equipment which can finish processing the inner hole, the inner hole end surface and the chamfer on one piece of equipment and improve the flashboard processing efficiency has important practical significance.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a for the technical problem who exists among the solution well-known technology and on an equipment alright accomplish processing hole, hole terminal surface and chamfer, improve the flashboard hole processing equipment of the efficiency of flashboard processing.

The utility model discloses a solve the technical scheme that technical problem that exists among the well-known technique took and be:

the inner hole processing equipment of the gate plate comprises a machine tool,

a group of motors which are distributed in a mirror symmetry mode are arranged on one side of the machine tool and are marked as an X-axis spindle motor and a Y-axis spindle motor, drill bits of the motors are arranged oppositely, the X-axis spindle motor is driven by the X-axis stepping motor to move along the central axis of the X-axis spindle motor, and the Y-axis spindle motor is driven by the Y-axis stepping motor to move along the central axis of the Y-axis spindle motor;

the other side of the machine tool is provided with another group of motors which are distributed in a mirror symmetry mode and are marked as an A-axis spindle motor and a B-axis spindle motor, the X-axis spindle motor and the A-axis spindle motor are arranged in parallel, tool bits of the motors are arranged oppositely, the tool bits are machining tool bits of inner holes of the flashboards, the A-axis spindle motor is driven by the A-axis stepping motor to move along the central axis of the A-axis spindle motor, and the B-axis spindle motor is driven by the B-axis stepping motor to move along the central axis of the B-axis spindle motor;

install C axle step motor on the lathe, C axle step motor with A axle spindle motor sets up perpendicularly, C axle step motor drive chuck makes it follow C axle step motor axis motion, the flashboard is set up on the chuck.

The utility model discloses can also adopt following technical scheme:

in foretell flashboard hole processing equipment, it is further, the drill bit is installed respectively on X axle power head and Y axle power head, X axle power head passes through transmission by X axle spindle motor drive, Y axle power head passes through transmission by Y axle spindle motor drive, flashboard hole processing tool bit is installed respectively on A axle power head and B axle power head, A axle power head passes through transmission by A axle spindle motor drive, B axle power head passes through transmission by B axle spindle motor drive, the flashboard passes through positioner fixedly.

In foretell flashboard hole processing equipment, it is further, flashboard hole processing tool bit is boring, tangent plane, the integrative tool bit of chamfer, flashboard hole processing tool bit includes the caudal peduncle, install first cutter body and second cutter body on the caudal peduncle in proper order, first cutter body is keeping away from the side-mounting of caudal peduncle has first tool bit, the second cutter body is keeping away from the side-mounting of caudal peduncle has the second tool bit the junction slope of first cutter body and second cutter body is provided with the chamfer tool bit.

In foretell flashboard hole processing equipment, further, second cutter body diameter equals flashboard hole diameter, and first cutter body diameter is greater than flashboard hole drill way terminal surface diameter, the chamfer tool bit with flashboard hole drill way chamfer phase-match.

In foretell flashboard hole processing equipment, further, first cutter body and second cutter body are the cylinder, just first cutter body and second cutter body integrated into one piece.

In the above flashboard inner hole processing equipment, further, the side surface of the first cutter body is provided with a groove A and a groove C which are oppositely arranged, the side surface of the second cutter body is provided with a groove B, the first cutter head and the chamfering cutter head are respectively arranged on the side walls of the groove A and the groove C, and the second cutter head is arranged on the side wall of the groove B.

In the above flashboard inner hole processing equipment, further, the cross sections of the groove C and the groove B are fan-shaped, the side wall of the groove A and the side wall of the groove B are in smooth transition, the side wall of the groove A used for installing the cutter head is a plane, and the other side wall of the groove A is an arc surface

To sum up, the utility model has the advantages of it is following and positive effect:

1. the utility model discloses a be equipped with C axle step motor, the flashboard is punched the back by the drill bit, and the flashboard on the C axle step motor drive chuck is removed to between A axle spindle motor and the B axle spindle motor, directly is processed by flashboard hole processing tool bit to on an equipment alright accomplish processing hole, hole terminal surface and chamfer, improve the efficiency of flashboard processing.

2. The utility model discloses a flashboard hole processing tool bit can simultaneous processing hole, hole terminal surface and chamfer, and is further, and the recess of flashboard hole processing tool bit plays the effect of fixed tool bit on the one hand, and on the other hand plays the effect of chip removal.

Drawings

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and examples, but it should be understood that these drawings are designed for illustrative purposes only and thus are not intended to limit the scope of the present invention. Furthermore, unless otherwise indicated, the drawings are intended to be illustrative of the structural configurations described herein and are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a side view of FIG. 1 of the specification;

FIG. 3 is a schematic structural view of the inner hole processing cutter head of the gate plate of the present invention;

FIG. 4 is a sectional view taken along line A-A of FIG. 3 of the specification;

FIG. 5 is a sectional view taken along line B-B of FIG. 3 of the specification.

In the figure:

1. the machine tool comprises a machine tool, 2, an X-axis spindle motor, 3, a Y-axis spindle motor, 4, an X-axis stepping motor, 5, a Y-axis stepping motor, 6, an A-axis spindle motor, 7, a B-axis spindle motor, 8, an A-axis stepping motor, 9, a B-axis stepping motor, 10, a C-axis stepping motor, 11, a chuck, 12, an X-axis power head, 13, a Y-axis power head, 14, an A-axis power head, 15, a B-axis power head, 16, a positioning device, 17, a drill bit, 18 and a flashboard inner hole machining tool bit;

1-1 part of tail handle, 1-2 parts of first cutter body, 1-3 parts of second cutter body, 1-4 parts of first cutter head, 1-5 parts of second cutter head, 1-6 parts of chamfering cutter head, 1-7 parts of groove A, 1-8 parts of groove B, 1-9 parts of groove C.

Detailed Description

First, it should be noted that the specific structure, features, advantages, etc. of the shutter inner hole machining apparatus of the present invention will be specifically described below by way of example, however, all the descriptions are for illustrative purposes only, and should not be construed as forming any limitation to the present invention. Furthermore, any single feature described or implicit in any embodiment or any single feature shown or implicit in any drawing may still be combined or subtracted between any of the features (or equivalents thereof) to obtain still further embodiments of the invention that may not be directly mentioned herein. In addition, for the sake of simplicity, the same or similar features may be indicated in only one place in the same drawing.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. In contrast, when an element is said to be "directly connected" to another element, it is intended that no intervening element is present.

Fig. 1 shows a schematic structural diagram of the present invention, and the side view of fig. 1 of the specification is shown by fig. 2, and the schematic structural diagram of the inner hole machining tool bit of the shutter of the present invention is shown by fig. 3, and the sectional view from a-a in fig. 3 of the specification is shown by fig. 4, and the sectional view from B-B in fig. 3 of the specification is shown by fig. 5, and the present invention is specifically described below with reference to fig. 1 to 3.

For further understanding of the contents, features and functions of the present invention, the following embodiments will be exemplified in conjunction with the accompanying drawings as follows:

the inner hole processing equipment of the gate plate comprises a machine tool 1,

a group of motors which are distributed in a mirror symmetry mode are arranged on one side of the machine tool 1 and are marked as an X-axis spindle motor 2 and a Y-axis spindle motor 3, drill bits 17 of the motors are arranged oppositely, the X-axis spindle motor 2 is driven by an X-axis stepping motor 4 and can move along the central axis of the X-axis spindle motor, and the Y-axis spindle motor 3 is driven by a Y-axis stepping motor 5 and can move along the central axis of the Y-axis spindle motor;

the other side of the machine tool 1 is provided with another group of motors which are distributed in a mirror symmetry mode and are marked as an A-axis spindle motor 6 and a B-axis spindle motor 7, the X-axis spindle motor 2 and the A-axis spindle motor 6 are arranged in parallel, tool bits of the motors are arranged oppositely, the tool bits are gate plate inner hole machining tool bits 18, the A-axis spindle motor 6 is driven by an A-axis stepping motor 8 to enable the A-axis spindle motor 6 to move along the central axis of the A-axis spindle motor, and the B-axis spindle motor 7 is driven by a B-axis stepping motor 9 to enable the B-axis spindle motor 7 to move along the central axis of;

install C axle step motor 10 on the lathe 1, C axle step motor 10 with A axle spindle motor 6 sets up perpendicularly, C axle step motor 10 drive chuck 11 makes its edge C axle step motor 10 axis motion, the flashboard is set up on chuck 11.

Still further, can be in the utility model discloses in consider, drill bit 17 is installed respectively on X axle power head 12 and Y axle power head 13, X axle power head 12 is driven by X axle spindle motor 2 through transmission, Y axle power head 13 is driven by Y axle spindle motor 3 through transmission, flashboard hole processing tool bit 18 is installed respectively on A axle power head 14 and B axle power head 15, A axle power head 14 is driven by A axle spindle motor 6 through transmission, B axle power head 15 is driven by B axle spindle motor 7 through transmission, the flashboard passes through positioner 16 to be fixed.

Still further, can also be considered in the utility model discloses in, flashboard hole processing tool bit 18 is boring, tangent plane, the integrative tool bit of chamfer, flashboard hole processing tool bit 18 includes caudal peduncle 1-1, install first cutter body 1-2 and second cutter body 1-3 on caudal peduncle 1-1 in proper order, first cutter body 1-2 is installed first tool bit 1-4 in the side of keeping away from caudal peduncle 1-1, second cutter body 1-3 is installed second tool bit 1-5 in the side of keeping away from caudal peduncle 1-1, be provided with chamfer tool bit 1-6 in the slope of the junction of first cutter body 1-2 and second cutter body 1-3.

It should be noted that the diameter of the second cutter body 1-3 is equal to the diameter of the inner hole of the gate plate, the diameter of the first cutter body 1-2 is larger than the diameter of the end face of the inner hole orifice of the gate plate, and the chamfer cutter head 1-6 is matched with the chamfer of the inner hole orifice of the gate plate.

It should be noted that the first cutter body 1-2 and the second cutter body 1-3 are both cylinders, and the first cutter body 1-2 and the second cutter body 1-3 are integrally formed.

It should be noted that the first cutter body 1-2 is provided with two oppositely arranged grooves A1-7 and C1-9 on the side surface, the second cutter body 1-3 is provided with grooves B1-8 on the side surface, the first cutter head 1-4 and the chamfering cutter head 1-6 are respectively arranged on the side walls of the grooves A1-7 and the grooves C1-9, and the second cutter head 1-5 is arranged on the side wall of the grooves B1-8.

It should be noted that the cross section of the groove C1-9 and the cross section of the groove B1-8 are in a sector shape, the side wall of the groove A1-7 and the side wall of the groove B1-8 are in smooth transition, the side wall of the groove A1-7 for mounting the cutter head is a plane, and the other side wall of the groove A1-7 is an arc surface.

The utility model discloses a flashboard hole processing tool bit 18 can simultaneous processing hole, hole terminal surface and chamfer, and is further, and the recess of flashboard hole processing tool bit 18 plays the effect of fixed tool bit on the one hand, and on the other hand plays the effect of chip removal.

As an example, the utility model discloses a be equipped with C axle step motor 10, the flashboard is punched the back by drill bit 17, and the flashboard on the C axle step motor 10 drive chuck 11 is removed to between A axle spindle motor 6 and the B axle spindle motor 7, directly is processed by flashboard hole processing tool bit 18 to on an equipment alright accomplish processing hole, hole terminal surface and chamfer, improve the efficiency of flashboard processing.

For example, the chuck 11 is provided with four jaws as shown in the drawings, the gate plate is placed on the jaws and fixed by the positioning device 16, the positioning device 16 can be any one of the prior art, for example, it is fixed by a hydraulic cylinder, the end of the hydraulic cylinder is provided with a "C" shaped fixing block, the fixing block is installed at the end of the hydraulic cylinder, the hydraulic cylinder is vertically arranged, the fixing block presses the gate plate downwards, and two ends of the inner hole of the gate plate are aligned with the drill bit 17.

The spindle motor drives the power head to rotate through a transmission device, so that a drill bit 17 on the power head is driven to rotate. Meanwhile, the stepping motor drives the spindle motor to drive the power head to move left and right. As shown in the attached drawings of the specification, the power head can move left and right conveniently by arranging the guide rail.

After the drilling is completed, the C-axis stepping motor 10 drives the shutter on the chuck 11 to move between the a-axis spindle motor 6 and the B-axis spindle motor 7. The spindle motor drives the power head to rotate through a transmission device, so that the flashboard inner hole machining tool bit 18 on the power head is driven to rotate. Meanwhile, the stepping motor drives the spindle motor to drive the power head to move left and right, and machining of the inner hole of the flashboard is completed.

To sum up, the utility model discloses can provide one kind on an equipment alright accomplish processing hole, hole terminal surface and chamfer, improve the flashboard hole processing equipment of the efficiency of flashboard processing.

The above embodiments are described in detail, but the above description is only for the preferred embodiments of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (7)

1. Flashboard hole processing equipment, its characterized in that: the machining equipment for the inner hole of the gate plate comprises a machine tool,

a group of motors which are distributed in a mirror symmetry mode are arranged on one side of the machine tool and are marked as an X-axis spindle motor and a Y-axis spindle motor, drill bits of the motors are arranged oppositely, the X-axis spindle motor is driven by the X-axis stepping motor to move along the central axis of the X-axis spindle motor, and the Y-axis spindle motor is driven by the Y-axis stepping motor to move along the central axis of the Y-axis spindle motor;

the other side of the machine tool is provided with another group of motors which are distributed in a mirror symmetry mode and are marked as an A-axis spindle motor and a B-axis spindle motor, the X-axis spindle motor and the A-axis spindle motor are arranged in parallel, tool bits of the motors are arranged oppositely, the tool bits are machining tool bits of inner holes of the flashboards, the A-axis spindle motor is driven by the A-axis stepping motor to move along the central axis of the A-axis spindle motor, and the B-axis spindle motor is driven by the B-axis stepping motor to move along the central axis of the B-axis spindle motor;

install C axle step motor on the lathe, C axle step motor with A axle spindle motor sets up perpendicularly, C axle step motor drive chuck makes it follow C axle step motor axis motion, the flashboard is set up on the chuck.

2. The ram inner bore machining apparatus according to claim 1, wherein: the drill bit is installed respectively on X axle power head and Y axle power head, X axle power head passes through transmission and is driven by X axle spindle motor, Y axle power head passes through transmission and is driven by Y axle spindle motor, flashboard hole processing tool bit is installed respectively on A axle power head and B axle power head, A axle power head passes through transmission and is driven by A axle spindle motor, B axle power head passes through transmission and is driven by B axle spindle motor, the flashboard passes through positioner fixedly.

3. The ram inner bore machining apparatus according to claim 1, wherein: the flashboard hole processing tool bit is a boring, tangent plane and chamfering integrated tool bit, the flashboard hole processing tool bit comprises a tail handle, a first cutter body and a second cutter body are sequentially installed on the tail handle, the first cutter body is far away from the side surface of the tail handle, the second tool bit is installed on the side surface of the tail handle, and the chamfering tool bit is obliquely arranged at the joint of the first cutter body and the second cutter body.

4. The ram inner bore machining apparatus of claim 3, wherein: the second cutter body diameter equals flashboard hole diameter, and first cutter body diameter is greater than flashboard hole drill way terminal surface diameter, the chamfer tool bit with flashboard hole drill way chamfer phase-match.

5. The ram inner bore machining apparatus of claim 3, wherein: the first cutter body and the second cutter body are cylinders and are integrally formed.

6. The ram inner bore machining apparatus of claim 5, wherein: the side surface of the first cutter body is provided with a groove A and a groove C which are oppositely arranged, the side surface of the second cutter body is provided with a groove B, the first cutter head and the chamfering cutter head are respectively arranged on the side walls of the groove A and the groove C, and the second cutter head is arranged on the side wall of the groove B.

7. The ram inner bore machining apparatus of claim 6, wherein: the cross section of recess C and recess B is fan-shaped, recess A lateral wall and recess B lateral wall smooth transition, recess A's the lateral wall that is used for installing the tool bit is the plane, another lateral wall of recess A is the cambered surface.

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